Archive for October 14th, 2012

This morning I was thinking about Twisteddeferreds and how people find them difficult to grasp, but how they’re conceptually simple once you get it. I guess most of us tell people a deferred is something to hold a result that hasn’t arrived yet. Sometimes, though, deferreds do have a result in them immediately (e.g., using succeed or fail to get an already-fired deferred).

I wondered if it might work to tell people to think of a deferred as really being the result. If that were literally true, then instead of writing:

If we could write Twisted code that way, I think using deferreds would be simpler for people unfamiliar with them. We could show them Twisted code and not even have to mention deferreds (see below).

In the style we’re all used to, the programmer manually adds callbacks and errbacks. That’s basically boilerplate. It gets worse when you then need to also use DeferredList, etc. It’s a little confusing to read deferred code at first, because you need to know that the deferred result/failure is automatically passed as the first arg to callbacks/errbacks. It seems to take a year or more for people to finally realize how the callback & errback chains actually interact :-) Also, I wonder how comfortable programmers are with code ordered innermost function first, as in the normal d.addCallback(inner).addCallback(outer) Twisted style, versus outer(inner()), as in the line above.

Anyway… I realized we CAN let people use the succinct style above, by putting boilerplate into decorators. I wrote two decorators, called (surprise!) callback and errback. You can do this:

@errbackdef errcheck(failure, arg):
...

@callbackdef cleanup(page, arg):
...

@callbackdef reformat(page, arg):
...

reformat(cleanup(errcheck(getPage(...), arg1), arg2), arg3)

The deferred callback and errback chains are hooked up automatically. You still get a regular deferred back as the return value.

And… the “deferred” aspect of the code (or at least the need to talk about or explain it) has conveniently vanished.

This gets the result of deferreds 2 & 3 and (if neither fails) passes the result of calling func2 on both results through to func1, which is called along with the result of deferred 1. You don’t need to use DeferredLists, as the decorator makes them for you. The errcheck function wont be called at all unless there’s an error.

There’s lots more that could be said about this, but that’s enough for now. The code (surely not bulletproof) and some tests are on Github. I’ll add a README sometime soon. This is still pretty much proof of concept, and some it could be done slightly differently. I’m happy to discuss in more detail if people are interested.